Combat engineer

World War II recruiting poster for combat engineers created by the U.S. Army Corps of Engineers
Combat engineers inspect a Bailey bridge erected in Iraq
Mobile field-deployable bridge (EFA) of the engineers of the French Army
Pontoon bridge built in World War II by the 291st Engineer Combat Battalion across the Rhine, downstream from the Ludendorff Bridge at Remagen
Combat Engineer depicted in the Vietnam Combat Artists Program
French Foreign Legion sappers in ceremonial dress

A combat engineer (also called field engineer, pioneer or sapper in many armies) is a soldier who performs a variety of construction and demolition tasks under combat conditions.

The combat engineer's goals involve facilitating movement and support of friendly forces while impeding those of the enemy. Combat engineers build, repair and maintain buildings, roads and power supplies. They employ explosives for construction and demolition projects, and clear minefields using specialized vehicles. Such tasks typically include constructing and breaching trenches, tank traps and other fortifications, bunker construction, bridge and road construction or destruction, laying or clearing land mines, and other physical work in the battlefield. Typically, a combat engineer is also trained as an infantryman, and combat engineer units often have a secondary role fighting as infantry.[1][2][3][4][5]

Terminology

A general combat engineer is often called a pioneer or sapper, terms derived respectively from the French and British armies. In some armies, pioneer and sapper indicate specific military ranks and levels of combat engineers, who work under fire in all seasons, may be allocated to different corps, as they were in the former Soviet Army, or they may be organized in the same corps. Geomatics (surveying and cartography) is another area of military engineering but is often performed by the combat engineers of some nations and in other cases is a separate responsibility, as was formerly the case in the Australian Army. While the officers of a combat engineering unit may be professionally certified civil or mechanical engineers, the non-commissioned members are generally not.

Practices and techniques

Combat engineers are force multipliers and enhance the survival of other troops through the use and practice of camouflage, reconnaissance, communications and other services. These include the construction of roads, bridges, field fortifications, obstacles and the construction and running of water points . In these roles, combat engineers use a wide variety of hand and power tools. They are also responsible for construction rigging, the use of explosives, and the carrying out of demolitions, obstacle clearance, and obstacle construction, assault of fortifications, use of assault boats in water obstacle crossings, helipad construction, general construction, route reconnaissance and road reconnaissance, and erecting communication installations. Combat engineers build and run water distribution points, carrying out water filtration, and NBC decontamination when necessary, and storage prior to distribution.

All these role activities and technologies are divided into several areas of combat engineering:

Mobility

Improving the ability of one's own force to move around the battlefield. Combat engineers typically support this role through reduction of enemy obstacles which include point and row minefields, anti-tank ditches, wire obstacles, concrete and metal anti-vehicle barriers, and Improvised Explosive Devices (IED) and wall and door breaching in urban terrain. Mechanized combat engineer units also have armored vehicles capable of laying short bridges for limited gap-crossing.

Countermobility

Building obstacles to prevent the enemy from moving around the battlefield. Destroying bridges, blocking roads, creating airstrips, digging trenches, etc. Can also include planting land mines and anti-handling devices when authorized and directed to do so.

When the defender must retreat it is often desirable to destroy anything that may be of use to the enemy, particularly bridges, as their destruction can slow the advance of the attackers. The retreating forces may also leave booby traps for enemy soldiers, even though these often wreak their havoc upon non-combatant civilians.

Explosive material handling

The placement of land mines to create minefields and their maintenance and removal.

The IDF Caterpillar D9 armored bulldozer is used for a variety of combat engineering tasks including opening routes and demolishing enemy structures.
Assault
Defense structures

Building structures which enable one's own soldiers to survive on the battlefield. Examples include trenches, bunkers, shelters, and armored vehicle fighting positions.

Defensive fortifications are designed to prevent intrusion into the inner works by infantry. For minor defensive locations these may only consist of simple walls and ditches. The design principle is to slow down the advance of attackers to where they can be destroyed by defenders from sheltered positions. Most large fortifications are not a single structure but rather a concentric series of fortifications of increasing strength.

Equipment and vehicles

Combat engineers employ a wide range of transportation vehicles and equipment, and uses weapons unique to the engineers, including those used in land mine warfare.

Equipment used by combat engineers
IED detonator in Iraq

Basic combat engineering tools include safe use of: driving tools and chopping tools (hammers, mauls, sledges, screwdriver, and bits); cutting tools and smoothing tools (saws, chisels, planes, files and rasps, brush-cutting tools, miscellaneous cutting tools); drilling tools, boring tools, and countersinking tools; measuring tools, leveling tools and layout tools (rules, tapes, marking tools, levels, plumb bobs, squares); gripping tools, prying tools and twisting tools (pliers, wrenches, bars); holding tools, raising tools and grinding tools (vises, clamps, jacks, grinders, and oilstones); timber handling tools and climbing tools; digging tools (shovels, posthole diggers, picks, and mattocks); portable power tools and trailer-mounted tools (electric tool trailer and generator, portable power tools); miscellaneous tools.

Vehicles
Armored front loader
German Army combat engineer vehicle Dachs
This EBG combat engineering vehicle is used by the engineers of the French Army (as well as the English army) as for a variety of missions
Obstacle breaching

For obstacle breaching, including minefields, the combat engineers use a variety of vehicles, explosive devices and plastic explosives including:

Combat engineering corps

Buffalo MRAP, a common vehicle used to interrogate IED's by combat engineer units.

Combat engineers are a key role in all armed forces of the world, and invariably found either closely integrated into the force structure, or even into the combat units of the national troops. In many countries, combat engineers are members of broader military engineering corps or branches. However, some nations have distinct combat engineering corps or branches which are separate from other types of military engineers. The Danish military engineering corps is almost entirely organized into one regiment of combat engineers, simply named Ingeniørregimentet ("The Engineering Regiment"). During the War in Afghanistan and the 2003–2011 Iraq War the US Army tasked its combat engineers with route clearance missions designed to counter rising threats of IEDs. To increase the effectiveness of these units EOD and mechanic teams are typically embedded with the combat engineer platoon. Due to rising IED threats US Army sends some combat engineers rank specialist or higher to complete Explosive Ordnance Clearance Agent training to familiarize themselves with types of unexploded ordnance.[8]

Historical publications

The Basic Field Manual, Engineer Soldier's Handbook, 2 June 1943 (FM 21-105) was written to provide guidance to a new combat engineer in the United States.[9]

See also

Notes

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